Effects of heart rate reduction with ivabradine on exercise-induced myocardial ischemia and stunning.

We investigated the effects of the selective bradycardic agent ivabradine, an I(f) channel inhibitor, on exercise-induced ischemia and resulting myocardial stunning. Seven dogs were chronically instrumented to measure left ventricular (LV) wall thickening (Wth), aortic pressure and coronary blood flow (CBFv) (Doppler). Circumflex coronary artery stenosis was set up to suppress the increase in CBFv during a 10 min treadmill exercise. During exercise under saline, LVWth in the ischemic zone was depressed (-70 +/- 4%) and a prolonged myocardial stunning was subsequently observed. Infusion of ivabradine started before exercise significantly reduced heart rate (HR) at rest (-22 +/- 7%), during exercise (-33 +/- 4%) and throughout the recovery period (-21 +/- 2%). By reducing HR during exercise, ivabradine simultaneously improved LVWth compared with saline (14 +/- 1% versus 7 +/- 1%, respectively) and subendocardial perfusion (microspheres). This anti-ischemic effect was subsequently responsible for a strong decrease in the intensity and severity of myocardial stunning. All these beneficial effects were abolished when HR reduction during exercise was suppressed by atrial pacing. Interestingly, when ivabradine infusion was started after exercise, LVWth was still significantly enhanced and myocardial stunning strongly attenuated. This direct effect of ivabradine on the stunned myocardium disappeared when HR reduction was suppressed by atrial pacing at rest. In conclusion, this study demonstrates that ivabradine exerts an anti-ischemic effect that is responsible for subsequent protection against myocardial stunning. Furthermore, administration of ivabradine after the ischemic insult still improves LVWth of the stunned myocardium.

Myocardial stunning in exercise-induced ischemia in dogs: lack of late preconditioning.

Late preconditioning (PC) against myocardial stunning develops after coronary artery occlusion (CAO) at rest and subsequent reperfusion. We investigated whether late PC occurs after exercise-induced ischemia (high-flow ischemia) in dogs. A circumflex coronary artery stenosis (by using occluders) was set up before the onset of treadmill exercise in nine chronically instrumented dogs to suppress exercise-induced increase in mean coronary blood flow velocity (CBFV, Doppler) without simultaneously affecting left ventricular (LV) wall thickening (Wth) at rest. Two similar exercises were performed 24 h apart. On day 1, LV Wth was reduced by 84 +/- 5% (P < 0.01), and exercise-induced increases in transmural myocardial blood flow (MBF, fluorescent microspheres) in the ischemic zone were blunted. LV Wth was depressed throughout the first 10 h and returned to its baseline value after 24 h. On day 2, changes in LV Wth and MBF were similar as was the time course for LV Wth recovery, indicating lack of late PC. Also, CBFV responses to acetylcholine, nitroglycerin, and reactive hyperemia (20-s CAO) were not significantly different on days 1 and 2. Similar results were obtained in a subgroup of four additional dogs with more severe stenosis during exercise. Late PC against myocardial stunning was confirmed to occur in a model of 10-min CAO followed by coronary artery reperfusion (CAR) in another four dogs. Thus in contrast with CAO at rest followed by CAR, severe myocardial ischemia in coronary flow-limited exercising dogs does not induce late PC against myocardial stunning.